identify statements true of landslides and tsunamis. choose one or more: a. large landslides, such as those involving partial collapse of steep-sided islands, have triggered tsunamis of regional or global extent. b. landslides and rockfalls are capable of producing only local tsunamis. c. landslides can trigger tsunamis by rapidly displacing a mass of ocean water. d. landslides can trigger tsunamis by creating earthquake waves.

Storm surge is produced A. when tropical storm winds blow the ocean surface toward land.

Storm surge, originating from powerful winds produced by a tropical storm or hurricane, is an agricultural phenomenon of utmost significance, for it brings about flooding brought on by oceanic water driving towards the shoreline.

The presence of such low pressures at the heart of the tempest creates a vast swell of heightened ocean levels, accompanied by imposing waves magnified in consequence. This amalgamation of water and waves carries with it the potential to inflict colossal destruction upon economic threads connected to coastal regions.

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The TRUE statement is option Od. Tidal reach means the farthest inland the water goes at high tide.

The tide-generating force is a combination of only two forces, the gravitational attractions of the Sun and Moon. This is known as the gravitational pull of the Moon and the Sun, which causes a bulge in the ocean's water levels, leading to high tides. Although the Sun's gravity is stronger than the Moon's, it is the Moon that has a greater effect on tides because it is closer to the Earth. Option B is incorrect since the size of the celestial bodies does not determine their effect on tides. Option C is also incorrect since a tidal bore is a type of tidal phenomenon where a wave of water moves upstream against the current of a river or narrow bay.

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The Earth is tilted towards the Sun in the Northern Hemisphere during the summer. This makes for longer days and more direct sunshine in the Northern Hemisphere, which raises the temperature there.

The Earth is tilted towards the Sun during the Northern Hemisphere summer. The tilt of the Earth's axis is what causes the seasons. Different parts of the Earth experience the strongest solar radiation at different times of the year.

Thus, summer in the Northern Hemisphere begins when the North Pole tilts towards the Sun. Additionally, the Northern Hemisphere experiences winter when the South Pole tilts towards the Sun.

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Answer:

The regions closest to the equator receive the most direct sunlight because the light is arriving at an angle close to 0°. As a result, a lesser area is illuminated and so there is greater solar irradiance. The regions nearest to the poles receive sunlight at more of an angle, resulting in a larger area of illumination and therefore less solar irradiance.

Explanation:

sample answer

The ratio of ocean evaporation that falls as precipitation on land compared to runoff from land to the oceans is approximately 0.36.

This means that about 36% of the water that evaporates from the oceans falls as precipitation on land, while the remaining 64% runs off back into the oceans.The ratio of ocean evaporation that falls as precipitation on land compared to runoff from land to the oceans can vary depending on a variety of factors such as climate, topography, vegetation, and land use. In general, the ratio is estimated to be around 0.36, meaning that about 36% of the water that evaporates from the oceans falls as precipitation on land, while the remaining 64% returns to the oceans as runoff from the land. However, this ratio can be much lower in arid regions with high evaporation rates and low precipitation, or much higher in areas with high rainfall and steep topography that results in more runoff. It's important to note that these ratios are only estimates and can vary significantly depending on the specific conditions of each region.

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For each direction:

(a) Downward: Deflects westward (leftward)

(b) Northward: Deflects downward and westward (leftward)

(c) Westward: Deflects upward

(d) Southeastward: Deflects downward and westward (leftward).  

 If it tend to deflect its velocity is directed in following directions?

We will consider an electron near the Earth's equator and determine the direction it tends to deflect if its velocity is directed in each of the following directions:

(a) Downward Direction: Since the electron is negatively charged, it will experience a force opposite to the direction of the Earth's magnetic field. At the equator, the Earth's magnetic field points northward and downward. When the electron moves downward, it experiences a force due to the Earth's magnetic field that will deflect it to the westward (leftward) direction.

(b) Northward Direction: When the electron moves in the northward direction, it will be affected by the Earth's magnetic field, which will deflect it downward and westward (leftward).

(c) Westward Direction: As the electron moves in the westward direction, the Earth's magnetic field will deflect it in an upward direction.

(d) Southeastward Direction: When the electron moves in the southeastward direction, it will experience a combination of the deflections mentioned in parts (a) and (b). Thus, the electron will deflect downward and westward (leftward).

In summary, for each direction:
(a) Downward: Deflects westward (leftward)
(b) Northward: Deflects downward and westward (leftward)
(c) Westward: Deflects upward
(d) Southeastward: Deflects downward and westward (leftward).

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Silt and clay-sized, detrital grains make up the suspended loads of most rivers and streams.

Suspended load refers to the portion of a river's sedimentary load that is carried in suspension in the water column. It consists of fine-grained particles such as silt and clay, as well as small particles of sand and other detritus that are small enough to remain suspended in the water. Suspended load is typically the most visible and most active component of a river's sedimentary transport, and it is responsible for a significant amount of erosion and deposition along a river's course. The amount and composition of suspended load can vary widely depending on factors such as the river's flow rate, channel morphology, and the types of rocks and soils present in the river basin.

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The practice fills the definition of conservation is A. recycling cans that contain a material like aluminum

Conservation refers to the careful use and management of natural resources to prevent waste and protect the environment. By recycling cans that contain materials like aluminum, we can conserve natural resources and reduce the amount of waste that ends up in landfills.

Therefore, Option B, not using a necessary mineral resource at all, may not be a practical or sustainable solution in many cases, as certain mineral resources may be essential for certain industries or products.

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There are a few reasons why a 10-m X-ray telescope located on Mauna Kea may not be very effective for research: X-ray Observations, High Altitude, Weather Conditions and Other Factors.

There are several reasons why a 10-m X-ray telescope atop Mauna Kea could not be very useful for research:

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Based on the information provided, you can determine the radius of the brighter G-type star in comparison to the other star using the following steps:

1. Recall that the luminosity (brightness) of a star is proportional to its radius squared and its temperature to the fourth power (L ∝ R^2 * T^4, where L is luminosity, R is radius, and T is temperature).

2. Given that both stars are G-type, they have approximately the same temperature. Thus, the temperature factor can be ignored in this case.

3. The given information states that the brighter star is 64 times brighter than the other star. So, L1 = 64 * L2, where L1 is the luminosity of the brighter star and L2 is the luminosity of the other star.

4. With the temperature factor removed, we can now relate the radii of the two stars to their luminosities: R1^2 = 64 * R2^2, where R1 is the radius of the brighter star and R2 is the radius of the other star.

5. To find the relationship between the radii, take the square root of both sides: R1 = 8 * R2.

From this calculation, you can conclude that the brighter G-type star has a radius 8 times larger than the other star in the nearby star cluster.

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The growth of Kiev as the core of the first Russian state was closely linked to trade.

Kiev was located on the Dnieper River, which provided a convenient waterway for the transportation of goods. This made Kiev a natural hub for trade between the Baltic Sea and the Black Sea, and between Europe and Asia. The city grew prosperous as a result, and this wealth attracted settlers from other parts of the region.

Kiev's position also made it an important center for the exchange of ideas and culture, as traders and travelers from different parts of the world passed through the city. Over time, Kiev became the center of a powerful state known as Kievan Rus, which included parts of what is now Ukraine, Russia, and Belarus. The legacy of Kiev's trade and cultural connections can still be seen in the city today.

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Answer:

Greenland does not change size! Different map projections make Greenland appear to be a different size. The Mercator projection makes everything that is near the polar areas appear too large. The Mollweide projection distorts the size of the polar regions much less.

Hope this helps :)

Pls brainliest...

On an Eckert projection, the shape of Greenland becomes distorted and appears elongated horizontally. This is because the Eckert projection is a compromise projection, meaning it tries to balance both the size and shape of landmasses.

However, due to the unique shape of Greenland, it is impossible to accurately represent its true shape on this type of projection.On an Eckert projection, the shape of Greenland is distorted due to the way the map projection represents the Earth's surface. In an Eckert projection, the meridians are equally spaced, and the parallels are stretched out as you move away from the equator. As a result, the shape of Greenland, which is located at a high latitude, appears larger and more elongated than it actually is in reality. This distortion is a common characteristic of map projections, as they attempt to represent the Earth's curved surface on a flat plane.

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Drought and desertification are more frequent in South Africa due to their location, climate, human activities, and climate change.

Drought and desertification are more frequent in South Africa because of a combination of things, along with its area, climate, and human activities. South Africa is situated in a subtropical region that is vulnerable to hot and dry situations, in particular within the interior regions of the US. T

his makes the region prone to drought, which could result in desertification if no longer controlled properly. Additionally, human sports including overgrazing, deforestation, and negative land management practices have contributed to the hassle of desertification in South Africa.

Those activities can cause soil erosion, which in turn can motivate the loss of vegetation and exacerbate the outcomes of drought. Climate change is likewise exacerbating the hassle of drought and desertification in South Africa.

Rising temperatures and changing rainfall patterns are making it more difficult to preserve agricultural practices and hold healthful ecosystems. To combat the trouble of drought and desertification, south africa has applied diverse techniques which include water conservation, reforestation, and sustainable land management practices.

However, these efforts face considerable demanding situations because of the usa's socio-monetary inequalities, political instability, and constrained assets.

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Answer:

fine, white sandy deserts and a flat coastline, and in the middle of a peninsula

Explanation:

by looking at a map, you can see that it is in the middle of a peninsula with the Persian gulf and the gulf of Oman around the peninsula.

Answer:

True

Explanation:

Answer:

1. All parallels and meridians are straight lines and they intersect each other at right angles.

2. All parallels have the same length which is equal to the length of equator.

Hope this helps :)

Pls brainliest...

No, not all parallels and meridians cross each other at right angles on both the globe and the Mercator projection. While the concept of parallels and meridians is the same on both, the Mercator projection distorts the angles and shapes of land masses as you move further away from the equator.

This means that while some parallels and meridians may cross each other at right angles on the Mercator projection, others may not due to the distortion of the map. On a globe, however, all parallels and meridians do intersect at right angles.Parallels, also known as lines of latitude, run horizontally on a map and are parallel to the equator. Meridians, also known as lines of longitude, run vertically on a map and converge at the poles. On a globe, parallels and meridians cross each other at right angles, forming a grid-like pattern.
On a Mercator projection, a type of map projection that represents the Earth on a flat surface, the parallels and meridians also appear to cross each other at right angles. However, it is important to note that the Mercator projection introduces some distortions in the representation of the Earth's surface, such as the distortion of size and shape near the poles. Despite these distortions, the crossing of parallels and meridians at right angles on the Mercator projection remains true for practical purposes.In summary, both on a globe and a Mercator projection, parallels and meridians cross each other at right angles.

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The storm had a coast-normal track on Sept. 14 and a more coast-parallel track on the afternoon of Sept. 15.

Without explicit data about which tempest is being alluded to, giving a definite answer is unimaginable. Notwithstanding, as a general rule, coast-typical tracks allude to storms that move opposite to the coast, while coast-equal tracks allude to typhoons that move lined up with the coast.

Expecting that the tempest being alluded to is Tropical storm Irma, which affected Florida in September 2017, it had a coast-typical track on September 14 as it moved toward the north up the west shoreline of Florida. This track brought the tempest's eye near Naples, Post Myers, and Tampa, causing far reaching wind harm and tempest flood along the coast.

During the evening of September 15, the track of the tempest moved marginally toward the west, taking a more coast-equal way as it moved toward the north towards the Florida Beg.

This change in track implied that the most grounded breezes and tempest flood were coordinated away from the vigorously populated region of the west shoreline of Florida, yet affected regions in the Beg and southern Georgia.

It is vital to take note of that the track of a typhoon can be profoundly erratic and can change quickly founded on different variables, including wind shear, water temperature, and barometrical tension. Occupants in typhoon inclined regions actually must remain informed and notice clearing orders from neighborhood authorities to remain protected during these strong tempests.

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Indoor air pollution may pose a bigger threat than outdoor air pollution in some locations due to various factors such as inadequate ventilation, the presence of harmful substances, and higher concentrations of pollutants. However, one aspect that does not explain this difference is the assumption that outdoor air pollution automatically poses a lesser risk.

In reality, outdoor air pollution can be quite harmful, with factors such as vehicle emissions, industrial processes, and natural sources contributing to poor air quality. While it is true that indoor air pollution may be more dangerous in certain situations due to the reasons mentioned earlier, it is not accurate to assume that outdoor air pollution is always less of a concern.
Both indoor and outdoor air pollution can negatively impact human health, leading to respiratory illnesses, heart disease, and other health issues. Therefore, it is important to address both types of pollution and take steps to improve air quality in all environments, rather than focusing solely on indoor air pollution as the bigger threat in some locations.

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Felsic rocks are composed mainly of feldspar and quartz, with smaller amounts of mica and other minerals. Intermediate rocks contain minerals such as plagioclase feldspar, hornblende, and pyroxene.

Mafic rocks consist mainly of pyroxene, olivine, and calcium-rich plagioclase feldspar. Ultramafic rocks contain even more olivine and pyroxene, with lesser amounts of calcium-rich plagioclase feldspar.Felsic rocks are high in silica and aluminum, and typically contain minerals such as quartz, feldspar (orthoclase and plagioclase), and muscovite. Intermediate rocks are intermediate in silica content and often contain minerals such as amphibole and biotite. Mafic rocks are low in silica and high in iron and magnesium, and commonly contain minerals such as pyroxene and olivine. Ultramafic rocks are even lower in silica and higher in iron and magnesium than mafic rocks, and often contain minerals such as pyroxene and olivine as well as chromite and garnet.

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In the northern hemisphere, when a cold front overtakes a warm front around a low-pressure system, it creates a front known as an occluded front. This front marks the end of the midlatitude cyclone's life cycle, as it represents the point where the cold front has caught up and overtaken the warm front.

As the cold front approaches the warm front, it forces the warm air to rise rapidly, creating a narrow band of intense precipitation. This precipitation band moves along the warm front until it is completely overtaken by the cold front, forming an occluded front. At this point, the midlatitude cyclone's energy source, the temperature difference between the warm and cold air masses, is no longer present. Without this source of energy, the cyclone begins to weaken and eventually dissipate.
As the cyclone weakens, the low altitude air around the system begins to form into a new high-pressure system, marking the end of the cyclone's life cycle. This process is known as the occlusion process and is an important part of understanding midlatitude cyclones in the northern hemisphere.

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Answer:

weight, mass

Explanation:

gravity draws things that are heavier down quicker, therefore it should be the bottom answer

According to the radial velocity curve for HD 39091 b, the maximum radial velocity occurs at the periastron passage, which is the point in the planet's orbit where it is closest to the star.

This is because the planet's gravitational pull on the star is strongest at this point, causing the star to move towards us faster. The minimum radial velocity, on the other hand, occurs at the apastron passage, which is the point in the planet's orbit where it is farthest from the star.

This is because the planet's gravitational pull on the star is weakest at this point, causing the star to move away from us slower. Therefore, the maximum and minimum radial velocities occur at periastron and apastron passages respectively.

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One of the three ways that streams transport their load of sediment is through suspension.

Suspended sediment consists of small, light particles that are carried within the water column without settling to the streambed. These particles can include fine sand, silt, and clay. The amount of sediment that a stream can suspend is largely determined by the velocity of the water flow.

Faster-moving water can carry larger and heavier particles than slower-moving water. Suspended sediment can have a significant impact on water quality and ecosystem health. High levels of sediment can reduce water clarity, block sunlight from reaching aquatic plants, and damage fish and other aquatic organisms.

It is therefore important to monitor and manage sediment levels in streams to maintain healthy aquatic ecosystems.

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Picture A would show economic development if the family progresses from a poor state to a rich state and social development will be evident if there is a change in the mental state and physical disposition of the people.

To determine the type of development, one needs to note the significant changes in the individuals depicted. Economic standing is about the financial status of a person while social standing refers to the psychological standing of a person.

So, if the disposition of the family changed from a sad one to a happy one then their social state has improved and if there is a change in financial standing, that is economic development. Development may have improved this family's life if the government made some policy changes that resulted in more wealth for the people and development does not benefit everybody in the same way.

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Answer:

True

Explanation:

True, correlation between two regions can sometimes be made by assuming that similar rock types in the regions formed at the same time.

When scientists study the rocks in different regions, they can sometimes make a correlation between the two regions by assuming that similar rock types in both regions formed at the same time.

For example, if two regions have similar rock layers with the same fossils, scientists can assume that those rocks were formed at the same time in the past when those fossils existed. This helps scientists understand how the Earth's surface has changed over time and how different regions are related to each other.

In summary, by comparing the rocks in different regions and looking for similarities, scientists can make assumptions about when and how those rocks were formed.

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The most reasonable interpretation for the origins of the peninsular terrane is that it was once a separate tectonic plate that collided with North America during the late Mesozoic era.

This collision caused the peninsular terrane to become part of the crust of North America in southern Alaska. The dominant rock type in this terrane, which ranges from gabbro to granite and volcanic rock, suggests that it was formed through volcanic activity and subsequent intrusion of magma into the Earth's crust.

Overall, the geological evidence points to the peninsular terrane as a distinct and separate geological entity that has been amalgamated with North America through tectonic processes.

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When two objects in orbit have periods of revolution that are simple ratios of each other (such as 1 to 2 or 1 to 3) we say that we have a resonance.
Hi! When two objects in orbit have periods of revolution that are simple ratios of each other (such as 1 to 2 or 1 to 3), we say that we have a "resonance" or "orbital resonance." This phenomenon occurs when the gravitational interaction between the objects causes their orbits to synchronize in a stable pattern, leading to the observed ratios in their periods of revolution.

Inclined strata can affect settlement , transport routes, mining, and agriculture by determining how these are built around it.

The occurrence of inclined strata can have an effect on settlement patterns, potentially proving challenging to build structures upon or develop due to the steepness of the gradient.

Furthermore, roadways and railway networks may need to be carefully charted around or through such terrain to ensure safe, efficient navigation. Ordinarily, mining operations are also affected by these rock forms as ore deposits tend to congregate where strata has been slanted, bent, or folded.

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As a general rule, the further away from the equator a location is, the colder its climate tends to be. This is because the sun's rays are spread out over a larger area at higher latitudes, reducing the amount of heat and light that reaches the surface.

For example, areas near the equator, such as the Amazon rainforest, experience warm, humid climates with high levels of precipitation year-round. In contrast, regions near the poles, such as Alaska or northern Canada, experience extremely cold and dry climates due to the low angle of the sun's rays and the tilt of the earth's axis.

Latitude also plays a role in the length of daylight hours, with higher latitudes experiencing longer summer days and shorter winter days. This can impact plant growth and migration patterns of animals.

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How Does Latitude Affect Climate?

Answer:

I apologize, but I do not see any atomic model of Quartz and Glass provided. Could you please provide more information or context regarding the atomic model you are referring to?

To distinguish a planet from a star in the night sky, you can observe their characteristics. Planets are typically brighter than stars and don't twinkle as much.

They also tend to move across the sky over time, whereas stars remain relatively stationary. Additionally, planets have a visible disc shape, while stars appear as small points of light.

By considering these factors, you can differentiate between planets and stars in the night sky.To distinguish a planet from a star in the night sky, follow these steps:
1. Observe the brightness: Stars often twinkle, while planets generally shine steadily. Planets usually appear brighter than most stars because they are closer to Earth.
2. Check for color: Stars often display colors, such as red, blue, or yellow, while planets typically appear white or slightly tinted. For example, Mars has a reddish hue.
3. Analyze the movement: Over several nights, planets will change their position relative to the stars, as they orbit the Sun. Stars, on the other hand, remain relatively fixed in the sky.
By considering these factors, you can distinguish a planet from a star in the night sky.

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